J. Liu scite author profile

Methylene diphenyl diisocyanate (MDI) is an important industrial chemical and asthmagenic respiratory sensitizer, however its metabolism remains unclear. In this study we used LC-MS and LC-MS/MS to identify novel reaction products of MDI with oxidized glutathione (GSSG), including an 837 m/z [M+H]+ ion corresponding to GSSG bound (via one of its N-termini) to partially hydrolyzed MDI, and an 863 m/z [M+H]+ ion corresponding to GSSG cross-linked by MDI (via its two γ-glutamate N-termini). Further studies with heavy isotope labeled and native reduced glutathione (GSH) identified an [M+H]+ ion corresponding to previously described mono(GSH)-MDI, and evidence for “oligomeric” GSH-MDI conjugates. This study also investigated transformational changes in MDI after incubation with an S9 fraction prepared from murine liver. LC-MS analyses of the S9 reaction products revealed the formation of [M+H]+ ions with m/z’s and retention times identical to the newly described GSSG-MDI (837 and 863) conjugates and the previously described mono(GSH)-MDI conjugates. Together the data identify novel biological transformations of MDI, which could have implications for exposure-related health effects, and may help target future in vivo studies of metabolism.

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Corrigendum to “Identification of novel reaction products of methylene-biS-phenylisocyanate (“MDI”) with oxidized glutathione in aqueous solution and also during incubation of MDI with a murine hepatic S9 fraction” [Toxicol. In vitro (2016) 97–104]

Wisnewski

Liu

Nassar

2017

Toxicology in Vitro

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J. Liu

Glutathione protects human airway proteins and epithelial cells from isocyanates

Identification of novel reaction products of methylene-bis - phenylisocyanate (“MDI”) with oxidized glutathione in aqueous solution and also during incubation of MDI with a murine hepatic S9 fraction

Corrigendum to “Identification of novel reaction products of methylene-biS-phenylisocyanate (“MDI”) with oxidized glutathione in aqueous solution and also during incubation of MDI with a murine hepatic S9 fraction” [Toxicol. In vitro (2016) 97–104]

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